使用超短TE脉冲序列对皮质骨进行磁共振成像。

Magnetic resonance imaging of cortical bone with ultrashort TE pulse sequences.

作者信息

Reichert Ines L H, Robson Matthew D, Gatehouse Peter D, He Taigang, Chappell Karyn E, Holmes Joanne, Girgis Samia, Bydder Graeme M

机构信息

Department of Orthopedic Surgery, Imperial College Faculty of Medicine, Charing Cross Hospital, London W6 8RF, UK.

出版信息

Magn Reson Imaging. 2005 Jun;23(5):611-8. doi: 10.1016/j.mri.2005.02.017.

DOI:10.1016/j.mri.2005.02.017

PMID:16051035

Abstract

PURPOSE

Normal adult cortical bone has a very short T(2) and characteristically produces no signal with pulse sequence echo times (TEs) routinely used in clinical practice. We wished to determine whether it was possible to use ultrashort TE (UTE) pulse sequences to detect signal from cortical bone in human subjects and use this signal to characterise this tissue.

SUBJECTS AND METHODS

Seven volunteers and 10 patients were examined using ultrashort TE pulse sequences (TE=0.07 or 0.08 ms). Short and long inversion as well as fat suppression pulses were used as preparation pulses. Later echo images were also obtained as well as difference images produced by subtracting a later echo image from a first echo image. Saturation pulses were used for T(1) measurement and sequences with progressively increasing TEs for T(2)* measurement. Intravenous gadodiamide was administered to four subjects.

RESULTS

Signal in cortical bone was detected with UTE sequences in children, normal adults and patients. This signal was usually made more obvious by subtracting a later echo image from the first provided that the signal-to-noise ratio was sufficiently high. Normal mean adult T(1)s ranged from 140 to 260 ms, and mean T(2)*s ranged from 0.42 to 0.50 ms. T(1) increased significantly with age (P<.01). Increased signal was observed after contrast enhancement in the normal volunteer and the three patients to whom it was administered. Reduction in signal from short T(2) components was seen in acute fractures, and increase in signal in these components was seen with new bone formation after fracture malunion. In a case of osteoporosis, bone cross-sectional area and signal level appeared reduced.

CONCLUSION

Signal can be detected from normal and abnormal cortical bone with UTE pulse sequences, and this can be used to measure its T(1) and T(2)* as well as observe contrast enhancement. Difference images are of value in increasing the conspicuity of cortical bone and observing abnormalities in disease.

摘要

目的

正常成人皮质骨的T(2) 非常短，在临床实践中常规使用的脉冲序列回波时间（TE）下通常不产生信号。我们希望确定是否有可能使用超短TE（UTE）脉冲序列来检测人体皮质骨的信号，并利用该信号对该组织进行特征描述。

受试者与方法

使用超短TE脉冲序列（TE = 0.07或0.08毫秒）对7名志愿者和10名患者进行检查。短反转和长反转以及脂肪抑制脉冲用作准备脉冲。还获得了后期回波图像以及通过从第一个回波图像中减去后期回波图像而产生的差异图像。使用饱和脉冲进行T(1) 测量，并使用TE逐渐增加的序列进行T(2)* 测量。对4名受试者静脉注射钆双胺。

结果

在儿童、正常成人和患者中，UTE序列检测到了皮质骨中的信号。只要信噪比足够高，通过从第一个回波图像中减去后期回波图像，该信号通常会变得更加明显。正常成人的平均T(1) 范围为140至260毫秒，平均T(2)* 范围为0.42至0.50毫秒。T(1) 随年龄显著增加（P <.01）。在正常志愿者和接受注射的3名患者中，对比增强后观察到信号增加。在急性骨折中，短T(2) 成分的信号降低，骨折畸形愈合后新骨形成时这些成分的信号增加。在一例骨质疏松症病例中，骨横截面积和信号水平似乎降低。